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Ordering Information
BVDSS / BVDGS 500V RDS(ON) (max) 1.0KΩ ID(ON) (min) 3.0mA
– ETE LNE150 OBSOL
Preliminary
N-Channel Enhancement-Mode DMOS FETs
Order Number / Package TO-236AB* LNE150K1 Die LNE150ND
Product marking for TO-236AB: NEE❋ where ❋ = 2-week alpha date code
*Same as SOT-23. All units shipped on 3,000 piece carrier tape reels.
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Features
Free from secondary breakdown Low power drive requirement Ease of paralleling Low CISS and fast switching speeds Excellent thermal stability Integral Source-Drain diode High input impedance and high gain
Advanced DMOS Technology
This low threshold Enhancement-mode (normally-off) transistor utilizes an advanced DMOS structure and Supertex’s well-proven silicon-gate manufacturing process. This combination produces devices with the power handling capabilities of bipolar transistors and with the high impedance and positive temperature coefficient inherent in MOS devices. Characteristic of all MOS structures, these devices are free from thermal runaway and thermallyinduced secondary breakdown. Supertex’s DMOS FETs are ideally suited to a wide range of switching and amplifying applications where high breakdown voltage, high input impedance, low input capacitance, and fast switching speeds are desired.
Applications
Logic level interface - ideal for TTL and CMOS Solid state relays Battery operated systems Photo voltaic drive Analog switches General purpose line drivers Telecom switches Source
Package Options
Absolute Maximum Ratings
Drain-to-Source Voltage Drain-to-Gate Voltage Gate-to-Source Voltage Operating and Storage Temperature Soldering Temperature* * Distance of 1.6 mm from case for 10 seconds.
Note: See Package Outline section for dimensions.
BVDSS BVDGS -0.7V to +10V -55°C to +150°C 300°C Gate Drain TO-236AB (SOT-23) top view
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LNE150
Thermal Characteristics
Package TO-236AB ID (continuous)* 3mA ID (pulsed) 20mA Power Dissipation @ TA = 25°C 0.36W
θjc
θa
IDR 3mA
IDRM 20mA
°C/W
200
°C/W
350
* ID (continuous) is limited by max rated Tj.
Electrical Characteristics (@ 25°C unless otherwise specified)
Symbol BVDSS BVGSS V SG ISG VGS(TH) ∆VGS(TH) IGSS IDSS ID(ON) RDS(ON) ∆RDS(ON) CISS COSS CRSS tON tOFF VSD Parameter Drain-to-Source Breakdown Voltage Gate-to-Source Diode Breakdown Voltage Source-to-Gate diode Forward Voltage Drop Source-to-Gate Continuous Diode Current Gate Threshold Voltage Change in VGS(TH) with Temperature Gate Body Leakage Current Zero Gate Voltage Drain Current ON-State Drain Current Static Drain-to-Source ON-State Resistance Change in RDS(ON) with Temperature Input Capacitance Common Source Output Capacitance Reverse Transfer Capacitance Turn-ON Time Turn-OFF Time Diode forward Voltage Drop 12 2 0.8 10 10 1.8 V ns pF 3 1.0 1.1 0.6 Min 500 10 0.7 3 2.5 -4.5 50 100 Typ Max Unit V V V mA V mV/°C nA nA mA KΩ %/°C
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ETE – OBSOL
Conditions VGS = 0V, ID = 100µA IGS = 100µA ISG = 100µA VDS = 0V VGS = VDS, ID = 1.0mA VGS = VDS, ID = 1.0mA VGS = +5.0V, VDS = 0V VGS =0V, VDS = 500V VGS = 5.0V, VDS = 25V VGS = 5.0V, ID = 500µA VGS = 0V, ID = 500µA VGS = 0V, VDS = 25V, f=1.0MHz
VGS = 0V to 5V, RGEN = 100Ω, VDD = 1.0V, Rload = 200Ω VGS = 0V, ISD = 3.0mA
Notes: 1. All D.C. parameters 100% tested at 25°C unless otherwise stated. (Pulse test: 300µs pulse, 2% duty cycle.) 2. All A.C. parameters sample tested.
Switching Waveforms and Test Circuit
VDD
5V
90% INPUT
0V
RL
PULSE GENERATOR
Rgen
OUTPUT
10%
t(ON)
t(OFF) tr td(OFF) tF
td(ON)
VDD
D.U.T.
10%
10%
INPUT
OUTPUT
0V
90%
90%
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